System and method for processing substrates

The invention claimed is: 1. System for processing coated substrates, comprising: at least one evacuable process box for accommodating at least one substrate, with a gas-tightly sealable housing, which forms a hollow space, wherein the housing comprises at least one first housing section coupleable to a cooling device for its cooling and at least one second housing section, different from the first housing section, which is implemented such that the substrate is thermally treatable by incident electromagnetic thermal radiation, wherein the hollow space is divided by at least one separating wall into a process space for accommodating the substrate and an intermediate space, wherein the separating wall has one or a plurality of openings and is arranged between the substrate and the first housing section, wherein the separating wall serves as a diffusion barrier for a gas exchange between the process space and the intermediate space during the thermal processing, but enables a gas exchange between the process space and the intermediate space before and after the thermal processing, and wherein the housing is provided with at least one sealable gas passage opening into the hollow space, for evacuating and introducing gas into the hollow space; a cooling device for cooling the first housing section; at least one loading/unloading unit for loading and/or unloading the process box, at least one heating unit for heating the substrate in the process box; at least one cooling unit for cooling the substrate in the process box; at least one pumping-out device for draining the hollow space of the process box; at least one gas supply device for supplying the hollow space of the process box with at least one gas; at least one transport mechanism, which is implemented for the purpose of executing a relative movement between the process box and each one of the heating unit, cooling unit, and loading/unloading unit. 2. System according to claim 1 , wherein the pumping-out device and the gas supply device are integrated into the loading/unloading unit. 3. System according to claim 2 , which comprises: a) a serial arrangement of stationary groups of units, wherein the groups consist in each case of one cooling unit, one heating unit, and one loading/unloading unit, wherein the process box is transportable and the transport mechanism is implemented for bidirectional transport of the process box; or b) a serial arrangement of groups of units, wherein the groups consist in each case of one cooling unit, one heating unit, and one loading/unloading unit, wherein the units are in each case transportable and the process box is stationary, wherein the transport mechanism is implemented for bidirectional transport of the units. 4. System according to claim 1 , wherein the cooling device is integrated into the heating unit. 5. System according to claim 1 , wherein a) the loading/unloading unit, the heating unit, and the cooling unit are in each case stationary and the process box is transportable, wherein the transport mechanism is implemented for the purpose of transporting the process box relative to the loading/unloading unit, heating unit, and cooling unit; or b) the process box is stationary and the loading/unloading unit, the heating unit, and the cooling unit are in each case transportable, wherein the transport mechanism is implemented for the purpose of transporting the loading/unloading unit, the heating unit, and the cooling unit relative to the process box. 6. System according to claim 1 , wherein the loading/unloading unit, the heating unit, and the cooling unit are arranged along a circulating transport route for the process box stationary, in each case, such that the transport route can be traversed unidirectionally, wherein the process box is transportable and the transport mechanism is implemented for the purpose of transporting the process box unidirectionally. 7. System according to claim 1 , which comprises: a) a serial arrangement of stationary units, which consists of one heating unit, two cooling units, which are situated on both sides of the heating unit, and two loading/unloading units for loading and unloading the process box, between which the other units are situated, wherein the process box is transportable and the transport mechanism is implemented for bidirectional transport of the process box; or b) a serial arrangement of transportable units, which consists of one heating unit, two cooling units, which are situated on both sides of the heating unit, and two loading/unloading units for loading and unloading the process boxes, between which the other units are situated, wherein the process box is stationary and the transport mechanism is implemented for bidirectional transport of the units. 8. System according to claim 1 , which comprises: a) a serial arrangement of stationary groups of units, wherein the groups consist in each case of one cooling unit, one heating unit, one cooling unit, as well as one loading/unloading unit, wherein the process box is transportable and the transport mechanism is implemented for bidirectional transport of the process box; or b) a serial arrangement of groups of units, wherein the groups consist in each case of one cooling unit, one heating unit, one cooling unit, as well as one loading/unloading unit, wherein the units are in each case transportable and the process box is stationary, wherein the transport mechanism is implemented for bidirectional transport of the units. 9. System according to claim 1 , wherein the pumping-out device and/or the gas supply device and/or the cooling device is permanently coupled during a relative movement between the process box and the heating unit, cooling unit, and loading/unloading unit permanent. 10. Method for processing coated substrates, comprising: loading a hollow space of an evacuable process box with at least one coated substrate, wherein the hollow space is divided by at least one separating wall into a process space for accommodating the substrate and an intermediate space, gas-tight sealing of the hollow space of the process box, pumping out the hollow space of the process box, filling the hollow space of the process box with at least one gas, thermal processing of the substrate by electromagnetic thermal radiation, which is generated by radiant heaters arranged outside the process box and impinges on at least one second housing section of the process box serving for thermal processing, cooling the hot substrate, removing the cooled substrate from the process box, cooling at least one first housing section of the process box during and optionally after the thermal processing, the first and second housing sections being different from each other: inhibiting the diffusion a gaseous material generated during the thermal processing to the cooled first housing section by means of a separating wall provided with one or a plurality of openings, which is arranged between the coated substrate and the cooled first housing section, wherein the separating wall serves as a diffusion barrier for a gas exchange between the process space and the intermediate space during the thermal processing, but enables a gas exchange between the process space and the intermediate space before and after the thermal processing. 11. Method according to claim 10 , wherein the process box circulates unidirectionally along a closed transport route, wherein the process box is successively transported to a loading unit for loading the process box with the substrate, to at least one heating unit for thermal processing of the substrate, to at least one cooling unit for cooling the substrate, and to one unloading unit for re